KR102252541B1 - A method of wireless digital transmitting audio using wi-fi - Google Patents

Abstract

Disclosed is a wireless digital transmission system of sound using Wi-Fi, which includes a digital projection device provided in the form of a box having a plurality of input and output terminals and storing and outputting digital cinema content.

Description

Wireless digital transmission method of sound using Wi-Fi {A METHOD OF WIRELESS DIGITAL TRANSMITTING AUDIO USING WI-FI}

The present invention relates to a wireless digital transmission method of sound using Wi-Fi, and more particularly, to a method of wirelessly transmitting sound signals of digital cinema content without modulation of a digital cinema content standard standard.

Conventional automobile theaters have a ticket office at the entrance of a large vacant lot, and after installing a large screen in front of the vacant lot, the car is parked in front of the screen so that the image projected on the screen can be viewed in the car, and the audio is FM. It is transmitted by radio waves so that the car stereo's radio can receive and listen to it.

However, the FM radio structure of the conventional car theater projection system cannot meet the current radio station installation and operation and rules of the Radio Act and the Enforcement Decree of the Radio Act, and does not correspond to radio stations that can be opened without notification, so it is legal in automotive theaters. There is virtually no wireless sound transmission.

In addition, in a situation where the need for non-face-to-face and non-contact means is emerging, a realistically safe method of gathering and gathering is required, and the demand for automobile theaters is increasing.It is possible to legally operate automobile theaters by replacing the existing FM propagation method. There is a need to propose a method for transmitting an acoustic signal that enables it.

One aspect of the present invention is a Wi-Fi streaming so that a smart device can receive it through Wi-Fi communication by converting the sound signal of digital cinema content according to the international standard (DCI: Digital Cinema Initiatives) to analog without modulation. Disclosed is a method for wireless digital transmission of used sound.

The technical problem of the present invention is not limited to the technical problem mentioned above, and other technical problems that are not mentioned will be clearly understood by those skilled in the art from the following description.

A wireless digital transmission system for sound using Wi-Fi according to an aspect of the present invention includes a digital projection apparatus, provided in a box shape having a plurality of input/output terminals and storing and outputting digital cinema content.

Meanwhile, it is connected to the digital projection device to receive the sound signal of the digital cinema content from the digital projection device, and convert and stream the sound signal received from the digital projection device according to a wireless digital transmission method of sound using Wi-Fi. An acoustic signal processing device; And a smart device that receives an acoustic signal streamed from the acoustic signal processing apparatus through a Wi-Fi communication network, and is connected to the vehicle through Bluetooth to output the acoustic signal received from the acoustic signal processing apparatus through a speaker provided in the vehicle. Including,

The wireless digital transmission method of sound using Wi-Fi includes the steps of: outputting, by the digital projection device, digital cinema content according to a standard standard of digital cinema content; Receiving, by the sound signal processing device, an sound signal of digital cinema content output from the digital projection device and converting it; And receiving, by the smart device, an acoustic signal from the acoustic signal processing apparatus and outputting it through a speaker provided in the vehicle.

The outputting, by the digital projection device, digital cinema content according to a standard standard of digital cinema content, the digital projection device scans an image signal for the digital cinema content onto a screen, and the digital cinema content is scanned through a cable connected to an output terminal. Including; outputting an acoustic signal for digital content to the acoustic signal processing device; Including,

The sound signal processing device receiving and converting the sound signal of the digital cinema content output from the digital projection device may include the sound signal processing device being output from the digital projection device through the cable adopting the AES/EBU method. Receiving an audio signal; Converting, by the sound signal processing device, a 16-channel sound signal received from the digital projection device into a 2-channel sound signal through a channel coupling method; Encoding the two-channel sound signal converted by the sound signal processing device into an OPUS format capable of real-time streaming; And streaming, by the acoustic signal processing apparatus, the encoded acoustic signal in a real-time transmission protocol method; and

The step of receiving, by the smart device, an acoustic signal from the acoustic signal processing apparatus and outputting it through a speaker provided in the vehicle, the smart device executing an application for receiving and reproducing acoustic signals and streaming in the acoustic signal processing apparatus Receiving the sound signal, performing a codec for reproducing an OPUS-type sound signal on the sound signal received by the sound signal processing apparatus, and outputting the sound signal through a speaker provided in the vehicle; Including,

The step of receiving and converting, by the sound signal processing device, an sound signal of digital cinema content output from the digital projection device may include: adjusting synchronization of an image signal scanned to the screen and an sound signal received from the smart device; Including more,

Adjusting the synchronization of the video signal scanned on the screen and the sound signal received by the smart device may include, by the sound signal processing apparatus, a packet reception interval of the sound signal transmitted to the smart device using a real-time transmission control protocol. Monitoring the degree of change, and when the packet reception interval is determined to be greater than or equal to a threshold, adjusting synchronization by streaming an audio signal on a time code of the video signal; and

The wireless digital transmission method of sound using Wi-Fi further includes, by the sound signal processing apparatus, receiving and analyzing an evaluation of the digital cinema content from the smart device, and further comprising:

The acoustic signal processing apparatus receiving and analyzing the evaluation of the digital cinema content from the smart device may include, by the acoustic signal processing apparatus, currently screened through an application for receiving and reproducing acoustic signals executed in the smart device. Requesting and receiving a textual evaluation result for digital cinema content; Calculating, by the acoustic signal processing apparatus, a rating result of a currently screened digital cinema content by analyzing an evaluation result in the form of a text received from the smart device; And storing, by the acoustic signal processing apparatus, matching the ratings of the currently screened digital cinema content so that it can be checked through an application for receiving and reproducing the acoustic signal.

The acoustic signal processing apparatus analyzing the evaluation result in the form of text received from the smart device and calculating the rating of the currently screened digital cinema content may include extracting the evaluation result text for a plurality of digital cinema contents as learning data. step; Building a neural network for extracting context information for input data by learning the training data using the Word2Vec algorithm; Dividing the rating steps into a plurality of rating steps, and setting an evaluation reference text corresponding to each rating step; Extracting a reference vector value for each rating stage indicating context information on the evaluation criteria text for each rating stage by inputting evaluation criteria text for each rating stage into the neural network; Inputting an evaluation result text for currently screened digital cinema content received from the smart device into the neural network to extract an evaluation result vector value indicating context information; Calculating a degree of similarity between the evaluation result vector value and a plurality of reference vector values, and extracting a vector value having the highest similarity with the evaluation result vector value from among the plurality of reference vector values; And calculating a rating step corresponding to a reference vector value having the highest similarity with the vector value as a result of the evaluation as a rating of the currently screened digital cinema content.

On the other hand, a mounting device that is attached in the vehicle to provide a mounting space for the smart device; further includes,

The mounting device may include an attachment panel formed in a flat plate shape and provided with an attachment sticker on a bottom surface to be attached to a predetermined position inside the vehicle; A connection panel formed in the form of a flat plate, one end hingedly connected to the other end of the attachment panel, and having an insertion hole at a center portion for penetrating the charging cable of the smart device; It is formed in the form of a flat plate, the other end is hingedly connected to one end of the connection panel, and one side is in contact with the rear side of the smart device to support the smart device, and a friction pad having a predetermined friction force is provided on one side. Mounting panel provided; And a mounting protrusion provided to protrude from a lower side of one side of the mounting panel and contacting a bottom surface of the smart device to support the smart device; Including,

The mounting panel is provided integrally with the other side, the upper side is in an open state, the lower side is a discharge block formed in the form of a box recessed inwardly; And a plurality of through holes formed in a portion corresponding to the upper side of the discharge block,

The discharge block may include a plurality of discharge holes formed on a lower side thereof to discharge air introduced through the plurality of through holes; And it is provided on the bottom surface to guide the flow path of the air discharged from the plurality of discharge holes, formed to be symmetrical to each other on both sides of the discharge block, and formed to be inclined outward from the center of the discharge block, having a generally curved shape. It may include; a plurality of guide protrusions formed so as to be.

According to an aspect of the present invention described above, by minimizing the processing step of data through digital signal processing without modulating the digital sound signal into an analog form, loss or distortion of sound data is minimized, and sound quality improvement effect is sought. , You can use the sound field effect.

In addition, by transmitting an acoustic signal through a Wi-Fi communication network, it is possible to legally operate a car theater by replacing the existing FM communication method that violates the enforcement ordinance of the Radio Wave Act, and further, it is possible to prevent indiscriminate waste of radio resources.

1 is a conceptual diagram of a wireless digital transmission system for sound using Wi-Fi according to an embodiment of the present invention.
FIG. 2 is a flowchart of a method for wireless digital transmission of sound using Wi-Fi according to an embodiment of the present invention, and FIG. 3 is a detailed flowchart of step S20 of FIG. 2.
4 and 5 are views showing a mounting device according to an embodiment of the present invention.
6 is a view showing a discharge block according to an embodiment of the present invention.

Advantages and features of the present invention, and a method of achieving them will become apparent with reference to the embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various different forms. It is provided to completely inform the scope of the invention to the possessor, and the invention is only defined by the scope of the claims. The same reference numerals refer to the same elements throughout the specification.

The terms used in the present specification are for describing exemplary embodiments and are not intended to limit the present invention. In this specification, the singular form also includes the plural form unless specifically stated in the phrase. As used herein, “comprises” and/or “comprising” do not exclude the presence or addition of one or more other elements, steps, and actions to the mentioned elements, steps, and actions.

1 is a conceptual diagram of a wireless digital transmission system for sound using Wi-Fi according to an embodiment of the present invention.

Referring to FIG. 1, a wireless digital transmission system 1000 of sound using Wi-Fi according to an embodiment of the present invention includes a digital projection apparatus 100, an acoustic signal processing apparatus 200, and a smart device 300. I can.

The digital projection apparatus 100 may include a server device in the form of a box having a plurality of input/output terminals, and may store and output digital cinema content.

For example, the digital projection apparatus 100 is a conventional digital projection system, and may perform a function of scanning a digitally recorded image signal onto a screen while simultaneously reproducing the recorded sound signal.

The acoustic signal processing apparatus 200 may be connected to the digital projection apparatus 100 to receive and convert an acoustic signal of digital cinema content from the digital projection apparatus 100.

The acoustic signal processing apparatus 200 may be in the form of a computer, a server, or an engine, and may be a device, an apparatus, a terminal, a user equipment (UE), or an MS ( mobile station), mobile terminal (MT), user terminal (UT), subscriber station (SS), wireless device, personal digital assistant (PDA), wireless modem, handheld device, etc. It can be called in other terms.

The acoustic signal processing apparatus 200 may adopt various types of operating systems, and a program for converting an acoustic signal may be mounted and executed according to the wireless digital transmission method of sound using Wi-Fi according to an embodiment of the present invention. I can. For example, the operating system can process sound signals in various formats, including the international standard for digital cinema content (DCI: Digital Cinema Initiatives), and Linux, which is efficient in terms of memory use, can be applied.

The smart device 300 is a device capable of communication and input/output of information, and may be provided as, for example, a smartphone or a tablet PC.

The smart device 300 may be executed with an application for receiving and reproducing sound signals mounted thereon, and may receive an sound signal streamed by the sound signal processing apparatus 200 using the application. At this time, the smart device 300 may receive an acoustic signal streamed by the acoustic signal processing apparatus 200 through a WiFi communication network, and the WiFi communication network is preferably a recently developed version of WiFi6 (802.11ax). This is to prevent a decrease in data transmission speed even when a plurality of smart devices 300 are simultaneously connected.

The smart device 300 may be connected to the vehicle 30 through Bluetooth, and reproduce the sound signal received from the sound signal processing apparatus 200 through a speaker provided in the vehicle 30 to be output.

The wireless digital transmission system 1000 of sound using Wi-Fi according to an embodiment of the present invention is applied to a car theater system so that the sound signal of digital content is output from the vehicle 30.

Here, by minimizing the processing step of data through digital signal processing without modulating the digital sound signal in an analog form, loss or distortion of sound data can be minimized, sound quality improvement effects can be achieved, and sound field effects can be utilized. .

In addition, by transmitting an acoustic signal through a Wi-Fi communication network, it is possible to legally operate a car theater by replacing the existing FM communication method that violates the enforcement ordinance of the Radio Wave Act, and further, it is possible to prevent indiscriminate waste of radio resources.

Hereinafter, a method for wireless digital transmission of sound using Wi-Fi according to an embodiment of the present invention will be described in detail.

FIG. 2 is a flowchart of a method for wireless digital transmission of sound using Wi-Fi according to an embodiment of the present invention, and FIG. 3 is a detailed flowchart of step S20 of FIG. 2.

Referring to FIG. 2, in the wireless digital transmission method of sound using Wi-Fi according to an embodiment of the present invention, the digital projection apparatus 100 is a digital cinema according to the international standard (DCI: Digital Cinema Initiatives) of digital cinema content. Outputting the content (S10), the sound signal processing apparatus 200 receiving and converting the sound signal of the digital cinema content output from the digital projection apparatus 100 and transmitting it to the smart device 300 (S20) and The smart device 300 may include an operation S30 of receiving an acoustic signal from the acoustic signal processing apparatus 200 and outputting the received acoustic signal through a speaker provided in the vehicle 30.

The digital projection apparatus 100 outputting digital cinema content according to DCI (S10) may include the digital projection apparatus 100 outputting an image signal and an audio signal for the digital cinema content.

Here, an image signal for digital cinema content may be scanned onto a large screen provided in an automobile theater.

Also, an acoustic signal for digital cinema content may be input to the acoustic signal processing apparatus 200 through a cable connected to an output terminal of the digital projection apparatus 100. In this case, the sound signal for the digital cinema content may adopt a DCI sound format. As shown in FIG. 1, the DCI sound format may consist of 16 channels of PCM/WAV, a sample rate of 48 to 96 kHz, and a bit rate of 320 to 640 kbps. -encrypted format can be applied.

Referring to FIG. 3, the step (S20) of the acoustic signal processing apparatus 200 receiving and converting the acoustic signal of digital cinema content output from the digital projection apparatus 100 and transmitting it to the smart device 300 (S20) includes: The processing apparatus 200 receiving an audio signal of digital cinema content (S21), encoding an audio signal of digital cinema content (S22), and transmitting the encoded audio signal to the smart device 300 (S23) ) Can be included.

The acoustic signal processing apparatus 200 may be connected to the digital projection apparatus 100 through a connection cable to receive an audio signal output from the digital projection apparatus 100. At this time, the connection cable may be connected to the output terminal of the digital projection apparatus 100 as described above, and adopting the AES/EBU method to prevent distortion or conversion of the 16-channel sound signal according to the DCI sound format. desirable.

The acoustic signal processing apparatus 200 may convert an acoustic signal received from the digital projection apparatus 100 into a form capable of being output by the smart device 300 through a channel coupling method. That is, the acoustic signal processing apparatus 200 may convert an audio signal of 16 channels according to the DCI sound format into an audio signal of 2 channels. Table 1 below is an example of a channel coupling map used by the audio signal processing apparatus 200 to convert an audio signal of 16 channels according to the DCI sound format into an audio signal of 2 channels.

The acoustic signal processing apparatus 200 may encode the converted two-channel acoustic signal in a form capable of real-time streaming. In this case, it is preferable that the sound signal processing apparatus 200 encodes the sound signal in OPUS format. The OPUS codec method has a high encoding speed and there is no difference in quality depending on the bitrate. This is because it can be considered that the sound quality is the best when compared to formats such as WAV, MP3, AAC, and Real Audio.

The acoustic signal processing apparatus 200 may transmit an encoded acoustic signal to the smart device 300. In this case, the sound signal processing apparatus 200 may stream the sound signal in a real time transmission protocol (RTP) method. The real-time transmission protocol shows excellent performance in synchronization with a maximum delay rate of 80 ms, and it is only responsible for the transmission of streaming data, so it is possible to transmit in one direction from the server to the client.Therefore, the consumption of resources required for signal processing is small and the delay speed is stably. Can be managed.

Here, the acoustic signal processing apparatus 200 may synchronize an image signal scanned on the screen and an acoustic signal transmitted to the smart device 300.

The acoustic signal processing apparatus 200 performs flow control on the time code of the acoustic signal output from the digital projection apparatus 100 to determine the difference in synchronization between the image signal scanned on the screen and the acoustic signal transmitted to the smart device 300. You can check whether it has occurred or not. For example, the acoustic signal processing apparatus 200 may monitor the degree of change in the packet reception interval of the acoustic signal transmitted to the smart device 300 using a real time transmission control protocol (RTCP), and receive a packet. When the interval is determined to be greater than or equal to the threshold, it may be considered that a difference in synchronization between the image signal scanned on the screen and the sound signal transmitted to the smart device 300 has occurred.

When it is determined that the synchronization difference between the video signal scanned on the screen and the sound signal transmitted to the smart device 300 has occurred, the acoustic signal processing apparatus 200 can adjust the synchronization by streaming the acoustic signal on the time code of the video signal. have.

The step of the smart device 300 receiving an acoustic signal from the acoustic signal processing apparatus 200 and outputting it through a speaker provided in the vehicle 30 is the acoustic signal processing apparatus 200 by the smart device 300 through a Wi-Fi communication network. It may include the step of receiving and outputting the sound signal streamed in.

Here, the smart device 300 may be executed by being loaded with an application for receiving and reproducing sound signals, and may receive an sound signal streamed by the sound signal processing apparatus 200 using the application. At this time, the smart device 300 may receive an acoustic signal streamed by the acoustic signal processing apparatus 200 through a WiFi communication network, and the WiFi communication network is preferably a recently developed version of WiFi6 (802.11ax). This is to prevent a decrease in data transmission speed even when a plurality of smart devices 300 are simultaneously connected.

The smart device 300 can implement a codec for reproducing an OPUS-type sound signal using an application for receiving and reproducing sound signals, and is connected to the vehicle 30 through Bluetooth communication and provided in the vehicle 30. Sound signals can be reproduced through the speaker.

On the other hand, in the wireless digital transmission method of sound using Wi-Fi according to another embodiment of the present invention, in addition to steps S10, S20 and S30 shown in FIG. 2, the sound signal processing apparatus 200 It may further include a step (S40) of receiving and analyzing the evaluation of the cinema content.

The acoustic signal processing apparatus 200 may request and receive an evaluation of digital cinema content through an application for receiving and reproducing an acoustic signal executed by the smart device 300. For example, the evaluation item may include inputting a comment on the content of digital cinema content, inputting a comment on projection of digital cinema content, and the like, and an evaluation result comment in text form for each item may be input.

The acoustic signal processing apparatus 200 may calculate a rating of the digital cinema content by analyzing text as a result of evaluating the digital cinema content received from the smart device 300.

For example, the acoustic signal processing apparatus 200 may build a neural network that extracts context information for input data. Here, the input data may be text as a result of evaluating digital cinema content.

The acoustic signal processing apparatus 200 may accumulate and store the evaluation result text for digital cinema content received from the smart device 300, and may extract the evaluation result text for the stored digital cinema content as learning data.

The acoustic signal processing apparatus 200 may build a neural network for extracting context information for input data by learning learning data using the Word2Vec algorithm.

The Word2Vec algorithm may include a Neural Network Language Model (NNLM). The neural network language model is basically a neural network consisting of an input layer, a projection layer, a hidden layer, and an output layer. Neural network language models are used to vectorize words. Since the neural network language model is a known technology, a more detailed description will be omitted.

The Word2vec algorithm, for text mining, is an algorithm that determines the degree of proximity by looking at the front and rear relationships between each word. The Word2vec algorithm is an unsupervised learning algorithm. As the name indicates, the Word2vec algorithm may be a metric method that expresses the meaning of a word in the form of a vector. The Word2vec algorithm can represent each word as a vector in a space of about 200 dimensions. Using the Word2vec algorithm, a vector corresponding to a word can be obtained for each word. The Word2vec algorithm may enable a dramatic improvement in precision in the field of natural language processing compared to other conventional algorithms. Word2vec can learn the meaning of words by using the relationship between words in the sentence of the input corpus and adjacent words. The Word2vec algorithm is based on an artificial neural network, starting from the premise that words with the same context have a close meaning. The Word2vec algorithm learns through a text document, and learns other words that appear nearby (about 5 to 10 words before and after) to an artificial neural network as related words. Words with related meanings are likely to appear in close proximity in the document, so in the process of repeating learning, the two words can gradually have a vector that is close to each other.

There are two methods of learning the Word2vec algorithm: Continuous Bag Of Words (CBOW) method and skip-gram method. The CBOW method predicts the target word by using the context created by the surrounding words. The skip-gram method predicts possible words around you based on one word. In large datasets, the skip-gram method is known to be more accurate.

Therefore, in an embodiment of the present invention, the Word2vec algorithm using the skip-gram method is used. For example, if learning is well completed through the Word2vec algorithm, similar words can be located nearby in a high-dimensional space. According to the Word2vec algorithm as described above, the calculated vector values may be similar as the distribution of surrounding words in the learning document is close, and words with similar calculated vector values may be regarded as similar. Since the Word2vec algorithm is a known technique, a more detailed description of vector value calculation will be omitted.

The acoustic signal processing apparatus 200 may divide the rating step into a plurality of rating steps and set an evaluation reference text corresponding to each rating step. For example, the acoustic signal processing apparatus 200 may access an external server to which a rating has been given by an expert according to an evaluation result of the digital cinema content to obtain an evaluation reference text for each of a plurality of rating stages.

The acoustic signal processing apparatus 200 may extract a reference vector value for each rating stage indicating context information for the evaluation reference text for each rating stage by inputting evaluation reference texts for each of a plurality of rating stages into a neural network.

The acoustic signal processing apparatus 200 may extract an evaluation result vector value representing context information by inputting an evaluation result text for digital cinema content received from the smart device 300 into a neural network.

The acoustic signal processing apparatus 200 may calculate a degree of similarity between the evaluation result vector value and the plurality of reference vector values, and extract a reference vector value having the highest similarity with the evaluation result vector value among the plurality of reference vector values. In this case, a Euclidean distance, a cosine similarity, a Tanimoto coeffieient, and the like may be adopted as a method of calculating the similarity.

The acoustic signal processing apparatus 200 may calculate a rating step corresponding to a reference vector value having the highest similarity with the vector value as a result of the evaluation as a rating of the currently screened digital cinema content.

The acoustic signal processing apparatus 200 may match and store the calculated ratings of digital cinema content, and guide ratings for each digital cinema content through an application executed by the smart device 300.

On the other hand, the wireless digital transmission system of sound using Wi-Fi according to another embodiment of the present invention is mounted in addition to the configuration of the digital projection apparatus 100, the sound signal processing apparatus 200 and the smart device 300 shown in FIG. It may further include a configuration of the device.

The mounting device is attached within the vehicle 30 to provide a mounting space for the smart device 300, thereby improving convenience in the user's movie viewing. This will be described with reference to FIG. 4 below.

4 and 5 are views showing a mounting device according to an embodiment of the present invention.

Referring to FIG. 4, the mounting apparatus 400 according to an embodiment of the present invention provides a space in which the smart device 300 can be mounted in an erect state, and may be attached to the interior of the vehicle 30.

Referring to FIG. 5, the mounting device 400 may include an attachment panel 410, a connection panel 420, a mounting panel 430, and a mounting protrusion 440.

The attachment panel 410 may be formed in a flat plate shape, and may be attached to a predetermined position inside the vehicle 30 by having an attachment sticker on the bottom surface.

The connection panel 420 may be formed in a flat plate shape, and one end may be connected to the other end of the attachment panel 410 in a hinged manner.

The connection panel 420 may have an insertion hole 421 in a central portion. As shown in FIG. 4, the insertion hole 421 is provided so that the charging cable of the smart device 300 can pass therethrough so that the smart device 300 can be charged while the smart device 300 is mounted thereon.

The mounting panel 430 may be formed in a flat plate shape, and the other end may be connected to one end of the connection panel 420 by a hinge coupling method. The mounting panel 430 may support the smart device 300 by contacting the rear surface of the smart device 300, and for this purpose, a friction pad having a predetermined frictional force may be provided on one side thereof.

The mounting protrusion 440 may be provided to protrude from the lower side of one side of the mounting panel 430. A pair of mounting protrusions 440 may be provided, and may support the smart device 300 by contacting the bottom surface of the smart device 300.

On the other hand, the mounting device according to another embodiment of the present invention in addition to the configuration of the mounting panel 410, the connection panel 420, the mounting panel 430 and the mounting protrusion 440 shown in Figure 5, the configuration of the discharge block. It may contain more.

The discharge block may be provided on the other side of the mounting panel 430, and circulate air while the smart device 300 is mounted on the mounting panel 430 so that the smart device 300 can maintain an appropriate temperature. .

This will be described with reference to FIG. 6.

6 is a view showing a discharge block according to an embodiment of the present invention.

Referring to FIG. 6, the discharge block 432 may be integrally formed on the other side of the mounting panel 430.

The discharge block 432 may be formed in the form of a box, the upper side may be formed in an open state, and the lower side may be formed in a form recessed inward.

Here, the mounting panel 430 may form a plurality of through holes 431a in a portion corresponding to the upper side of the discharge block 432. That is, the inside of the discharge block 432 may be communicated through the plurality of through holes 431a.

The discharge block 432 may form a plurality of discharge holes 434 on the lower side. Accordingly, air flowing into the discharge block 432 through the plurality of through holes 431a will be discharged through the plurality of discharge holes 434.

Here, the discharge block 432 may include a plurality of guide protrusions 433 on the bottom surface. The plurality of guide protrusions 433 may be formed to be symmetrical to each other on both sides of the discharge block 432, and may be formed to have a curved shape as a whole while being inclined outward from the center of the discharge block 432. The plurality of guide protrusions 433 allow air to diffuse and discharge to both sides through the plurality of discharge holes 434, and may be formed to be curved to induce a vortex of the discharged air, thereby further improving the diffusion power.

Such a discharge block 432 is provided on the other side of the mounting panel 430 and discharges the air heated by the smart device 300 mounted on the mounting panel 430 so that the smart device 300 can achieve an appropriate temperature. Make sure you can keep it.

Although the embodiments of the present invention have been described with reference to the accompanying drawings, those of ordinary skill in the art to which the present invention pertains can be implemented in other specific forms without changing the technical spirit or essential features. You will be able to understand. Therefore, it should be understood that the embodiments described above are illustrative and non-limiting in all respects.

1000: wireless digital transmission system of sound using Wi-Fi
30: vehicle
100: digital projection device
200: acoustic signal processing device
300: smart device

Claims (2)

Including; a digital projection device provided in the form of a box having a plurality of input and output terminals and storing and outputting digital cinema content,
An acoustic signal that is connected to the digital projection device to receive the sound signal of the digital cinema content from the digital projection device, and converts and streams the sound signal received from the digital projection device according to a wireless digital transmission method of sound using Wi-Fi Processing device; And
A smart device that receives an acoustic signal streamed from the acoustic signal processing apparatus through a Wi-Fi communication network, is connected to the vehicle through Bluetooth, and outputs the acoustic signal received from the acoustic signal processing apparatus through a speaker provided in the vehicle; Including,
The wireless digital transmission method of sound using the Wi-Fi,
Outputting, by the digital projection device, digital cinema content according to a standard standard of digital cinema content;
Receiving, by the sound signal processing device, an sound signal of digital cinema content output from the digital projection device and converting it; And
The smart device receiving an acoustic signal from the acoustic signal processing apparatus and outputting it through a speaker provided in the vehicle; Including,
The step of outputting, by the digital projection device, digital cinema content according to a standard standard of digital cinema content,
Including, the digital projection apparatus scans the image signal for the digital cinema content onto a screen, and outputs the sound signal for the digital cinema content to the sound signal processing device through a cable connected to an output terminal; and
The step of receiving and converting, by the sound signal processing device, an sound signal of digital cinema content output from the digital projection device,
Receiving, by the acoustic signal processing apparatus, an acoustic signal output from the digital projection apparatus through the cable adopting the AES/EBU scheme;
Converting, by the sound signal processing device, a 16-channel sound signal received from the digital projection device into a 2-channel sound signal through a channel coupling method;
Encoding the two-channel sound signal converted by the sound signal processing device into an OPUS format capable of real-time streaming; And
Streaming, by the acoustic signal processing device, the encoded acoustic signal in a real-time transmission protocol method; Including,
The step of receiving, by the smart device, an acoustic signal from the acoustic signal processing apparatus and outputting it through a speaker provided in the vehicle,
The smart device executes an application for receiving and reproducing an acoustic signal to receive an acoustic signal streamed from the acoustic signal processing apparatus, and for reproducing an OPUS-type acoustic signal with respect to the acoustic signal received by the acoustic signal processing apparatus. Including, performing a codec and outputting through a speaker provided in the vehicle;
The step of receiving and converting, by the sound signal processing device, an sound signal of digital cinema content output from the digital projection device,
Adjusting the synchronization of the image signal scanned on the screen and the sound signal received from the smart device; further comprising,
Adjusting the synchronization of the video signal scanned on the screen and the sound signal received from the smart device,
When the acoustic signal processing apparatus monitors the degree of change in the packet reception interval of the acoustic signal transmitted to the smart device using a real-time transmission control protocol, and when the packet reception interval is determined to be greater than or equal to a threshold, the time code of the video signal Including; and adjusting the synchronization by streaming the sound signal of the image,
The wireless digital transmission method of sound using the Wi-Fi,
The acoustic signal processing apparatus receiving and analyzing the evaluation of the digital cinema content from the smart device; further comprising,
The acoustic signal processing apparatus receiving and analyzing the evaluation of the digital cinema content from the smart device,
A step of requesting and receiving, by the acoustic signal processing apparatus, an evaluation result in the form of a text for the currently screened digital cinema content through an application for receiving and reproducing acoustic signals executed in the smart device;
Calculating, by the acoustic signal processing apparatus, a rating result of a currently screened digital cinema content by analyzing an evaluation result in a text format received from the smart device; And
Including, by the acoustic signal processing apparatus, matching the ratings of currently screened digital cinema content and storing them so that they can be checked through an application for receiving and reproducing the acoustic signals.
The acoustic signal processing apparatus analyzing the evaluation result in the form of text received from the smart device and calculating a rating of the currently screened digital cinema content,
Extracting text as a result of evaluation of a plurality of digital cinema contents as learning data;
Building a neural network for extracting context information for input data by learning the training data using the Word2Vec algorithm;
Dividing the rating steps into a plurality of rating steps, and setting an evaluation reference text corresponding to each rating step;
Extracting a reference vector value for each rating stage indicating context information on the evaluation criteria text for each rating stage by inputting evaluation criteria text for each rating stage into the neural network;
Inputting an evaluation result text for currently screened digital cinema content received from the smart device into the neural network to extract an evaluation result vector value indicating context information;
Calculating a degree of similarity between the evaluation result vector value and a plurality of reference vector values, and extracting a vector value having the highest similarity with the evaluation result vector value from among the plurality of reference vector values; And
Computing a rating step corresponding to a reference vector value having the highest similarity with the vector value as a result of the evaluation as a rating of the currently screened digital cinema content; Including,
A mounting device attached in the vehicle to provide a mounting space for the smart device; further comprising,
The mounting device,
An attachment panel formed in the form of a flat plate and provided with an attachment sticker on a bottom surface to be attached to a predetermined position inside the vehicle;
A connection panel formed in a flat plate shape, one end hingedly connected to the other end of the attachment panel, and having an insertion hole for penetrating the charging cable of the smart device at a center portion;
It is formed in the form of a flat plate, the other end is hingedly connected to one end of the connection panel, and one side is in contact with the rear side of the smart device to support the smart device, and a friction pad having a predetermined friction force is provided on one side. Mounting panel provided; And
Including; a mounting protrusion provided to protrude from a lower side of one side of the mounting panel and contacting a bottom surface of the smart device to support the smart device, and
The mounting panel,
A discharge block integrally provided on the other side, the upper side is in an open state, and the lower side is formed in the form of a box recessed inward; And
Includes; a plurality of through holes formed in a portion corresponding to the upper side of the discharge block,
The discharge block,
A plurality of discharge holes formed on a lower side thereof to discharge air introduced through the plurality of through holes; And
It is provided on the bottom surface to guide the flow path of air discharged from the plurality of discharge holes, is formed to be symmetrical to each other on both sides of the discharge block, is formed to be inclined outward from the center of the discharge block, and has a curved shape as a whole Formed, a plurality of guide protrusions; including, wireless digital transmission system of sound using Wi-Fi.
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